TSTP Solution File: DAT072_1 by SPASS+T---2.2.22

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : SPASS+T---2.2.22
% Problem  : DAT072_1 : TPTP v8.1.0. Released v6.1.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : spasst-tptp-script %s %d

% Computer : n020.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 600s
% DateTime : Sat Jul 16 01:32:05 EDT 2022

% Result   : Theorem 6.00s 3.79s
% Output   : Refutation 6.00s
% Verified : 
% SZS Type : -

% Comments : 
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%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12  % Problem  : DAT072_1 : TPTP v8.1.0. Released v6.1.0.
% 0.07/0.12  % Command  : spasst-tptp-script %s %d
% 0.12/0.33  % Computer : n020.cluster.edu
% 0.12/0.33  % Model    : x86_64 x86_64
% 0.12/0.33  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.33  % Memory   : 8042.1875MB
% 0.12/0.33  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.12/0.33  % CPULimit : 300
% 0.12/0.33  % WCLimit  : 600
% 0.12/0.33  % DateTime : Fri Jul  1 17:35:15 EDT 2022
% 0.12/0.33  % CPUTime  : 
% 0.18/0.45  % Using integer theory
% 6.00/3.79  
% 6.00/3.79  
% 6.00/3.79  % SZS status Theorem for /tmp/SPASST_30479_n020.cluster.edu
% 6.00/3.79  
% 6.00/3.79  SPASS V 2.2.22  in combination with yices.
% 6.00/3.79  SPASS beiseite: Proof found by SPASS and SMT.
% 6.00/3.79  Problem: /tmp/SPASST_30479_n020.cluster.edu 
% 6.00/3.79  SPASS derived 15234 clauses, backtracked 827 clauses and kept 3380 clauses.
% 6.00/3.79  SPASS backtracked 5 times (1 times due to theory inconsistency).
% 6.00/3.79  SPASS allocated 23407 KBytes.
% 6.00/3.79  SPASS spent	0:00:02.72 on the problem.
% 6.00/3.79  		0:00:00.00 for the input.
% 6.00/3.79  		0:00:00.01 for the FLOTTER CNF translation.
% 6.00/3.79  		0:00:00.12 for inferences.
% 6.00/3.79  		0:00:00.12 for the backtracking.
% 6.00/3.79  		0:00:01.79 for the reduction.
% 6.00/3.79  		0:00:00.16 for interacting with the SMT procedure.
% 6.00/3.79  		
% 6.00/3.79  
% 6.00/3.79  % SZS output start CNFRefutation for /tmp/SPASST_30479_n020.cluster.edu
% 6.00/3.79  
% 6.00/3.79  % Here is a proof with depth 3, length 35 :
% 6.00/3.79  5[0:Inp] ||  -> array(skc6)*.
% 6.00/3.79  6[0:Inp] ||  -> array(skc5)*.
% 6.00/3.79  8[0:Inp] || equal(skc6,skc5)** -> .
% 6.00/3.79  18[0:Inp] || SkP0(U,V,W,X)* -> greater(W,X).
% 6.00/3.79  19[0:Inp] || SkP0(U,V,W,X)* -> greatereq(X,0).
% 6.00/3.79  24[0:Inp] ||  -> greatereq(U,skc8) greater(0,U) SkP0(skc7,skc6,skc8,U)*.
% 6.00/3.79  25[0:Inp] ||  -> greatereq(U,skc8) greater(0,U) SkP0(skc7,skc5,skc8,U)*.
% 6.00/3.79  26[0:Inp] ||  -> equal(read(skc7,U),read(skc6,U)) SkP0(skc7,skc6,skc8,U)*.
% 6.00/3.79  27[0:Inp] ||  -> equal(read(skc7,U),read(skc5,U)) SkP0(skc7,skc5,skc8,U)*.
% 6.00/3.79  33[0:Inp] || equal(U,minus(V,plus(W,1)))* SkP0(X,Y,V,W)* -> equal(read(Y,W),read(X,U))*.
% 6.00/3.79  35[0:Inp] || array(U) array(V) equal(read(U,skf8(V,U)),read(V,skf8(V,U)))* -> equal(U,V).
% 6.00/3.79  81[0:ArS:19.1] || SkP0(U,V,W,X)* -> lesseq(0,X).
% 6.00/3.79  82[0:ArS:18.1] || SkP0(U,V,W,X)* -> less(X,W).
% 6.00/3.79  83[0:ArS:25.1] ||  -> less(U,0) lesseq(skc8,U) SkP0(skc7,skc5,skc8,U)*.
% 6.00/3.79  84[0:ArS:24.1] ||  -> less(U,0) lesseq(skc8,U) SkP0(skc7,skc6,skc8,U)*.
% 6.00/3.79  89[0:ArS:33.0] || equal(U,plus(V,uminus(plus(W,1))))*+ SkP0(X,Y,V,W)* -> equal(read(Y,W),read(X,U))*.
% 6.00/3.79  133[0:Res:6.0,35.2] || array(U) equal(read(skc5,skf8(U,skc5)),read(U,skf8(U,skc5)))* -> equal(skc5,U).
% 6.00/3.79  278[0:Res:27.1,82.0] ||  -> equal(read(skc7,U),read(skc5,U))** less(U,skc8).
% 6.00/3.79  279[0:Res:27.1,81.0] ||  -> equal(read(skc7,U),read(skc5,U))** lesseq(0,U).
% 6.00/3.79  302[0:Res:26.1,82.0] ||  -> equal(read(skc7,U),read(skc6,U))** less(U,skc8).
% 6.00/3.79  303[0:Res:26.1,81.0] ||  -> equal(read(skc7,U),read(skc6,U))** lesseq(0,U).
% 6.00/3.79  304[0:Rew:278.0,302.0] ||  -> equal(read(skc6,U),read(skc5,U))** less(U,skc8).
% 6.00/3.79  305[0:Rew:279.0,303.0] ||  -> equal(read(skc6,U),read(skc5,U))** lesseq(0,U).
% 6.00/3.79  606[0:EqR:89.0] || SkP0(U,V,W,X)*+ -> equal(read(V,X),read(U,plus(W,uminus(plus(X,1)))))*.
% 6.00/3.79  3218[0:SpL:305.0,133.1] || array(skc6) equal(read(skc5,skf8(skc6,skc5)),read(skc5,skf8(skc6,skc5)))* -> lesseq(0,skf8(skc6,skc5)) equal(skc6,skc5).
% 6.00/3.79  3219[0:SpL:304.0,133.1] || array(skc6) equal(read(skc5,skf8(skc6,skc5)),read(skc5,skf8(skc6,skc5)))* -> less(skf8(skc6,skc5),skc8) equal(skc6,skc5).
% 6.00/3.79  3221[0:Obv:3219.1] || array(skc6) -> less(skf8(skc6,skc5),skc8)* equal(skc6,skc5).
% 6.00/3.79  3222[0:MRR:3221.0,3221.2,5.0,8.0] ||  -> less(skf8(skc6,skc5),skc8)*.
% 6.00/3.79  3223[0:Obv:3218.1] || array(skc6) -> lesseq(0,skf8(skc6,skc5))* equal(skc6,skc5).
% 6.00/3.79  3224[0:MRR:3223.0,3223.2,5.0,8.0] ||  -> lesseq(0,skf8(skc6,skc5))*.
% 6.00/3.79  17012[0:Res:83.2,606.0] ||  -> less(U,0) lesseq(skc8,U) equal(read(skc7,plus(skc8,uminus(plus(U,1)))),read(skc5,U))**.
% 6.00/3.79  17069[0:Res:84.2,606.0] ||  -> less(U,0) lesseq(skc8,U) equal(read(skc7,plus(skc8,uminus(plus(U,1)))),read(skc6,U))**.
% 6.00/3.79  17075[0:Rew:17012.2,17069.2] ||  -> less(U,0) lesseq(skc8,U) equal(read(skc6,U),read(skc5,U))**.
% 6.00/3.79  20343[0:SpL:17075.2,133.1] || array(skc6) equal(read(skc5,skf8(skc6,skc5)),read(skc5,skf8(skc6,skc5)))* -> less(skf8(skc6,skc5),0) lesseq(skc8,skf8(skc6,skc5)) equal(skc6,skc5).
% 6.00/3.79  26393(e)[0:ThR:20343,3224,3222,8,5] ||  -> .
% 6.00/3.79  
% 6.00/3.79  % SZS output end CNFRefutation for /tmp/SPASST_30479_n020.cluster.edu
% 6.00/3.79  
% 6.00/3.79  Formulae used in the proof : fof_c fof_init_type fof_write_type fof_ax1 fof_distinct fof_sorted1
% 6.15/3.98  
% 6.15/3.98  SPASS+T ended
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